relay for oltc control & transformer monitoring for oltc control & transformer ... 1....

Issue 05/2016

Technical Data

g

Relay for OLTC Control &

Transformer Monitoring

Model REG-DA

1 Wall mounting housing

1 Panel mounting housing

1 Din-rail mounting

1. Application The REG-DA relay for OLTC control & Transformer Monitoring is used to perform both complex and simple measurement, control and regulation tasks on tap-changing transformers. To achieve these tasks, the REG-DA voltage regulator can be used with an array of add-on components, such as the BIN-D and ANA-D remote I/O modules, and an assortment of communication cards.

Each REG-DA has transducer and statistical modes, as well as optional multi-channel recorder, transformer monitoring module (TMM) and ParaGramer.

Transducer Mode displays all of the relevant measured variables of the voltage network, while Statistical Mode provides a clear overview of the various switching operations of the tap changer.

Voltage regulators operating in parallel are connected via a fibre optic or copper ELAN bus, which enables the automatic sharing of relevant data. ParaGramer then detects which transformers have been switched into a parallel control scheme and displays this information via a single-line diagram.

The powerful TMM functions enable the continuous monitoring of various conditions within the transformer and tap changer. Information such as hot-spot temperature (IEC 60354 or IEC 60076) and transformer loss-of-life are calculated, and if necessary up to six cooling levels can be activated.

As an alternative to direct measurement, the U, I, tap position and cos(ϕ) value can also be transmitted to the REG-DA via either IEC 61850 or by mA inputs, thereby eliminating the need for CT and VT cabling to the regulator.

The REG-DA regulator can communicate with a SCADA system (see list of characteristics) through all of the common protocols.

Freely programmable inputs and outputs enable the implementation of application specific tasks.

A number of different communication cards are available for the REG-DA, with connections that range from copper RS232 to fibre optic Ethernet.

A variety of protocols are available to communicate with a SCADA system or RTU:

0 IEC 61850

0 IEC 60870 - 5 - 101 / 103 / 104

0 DNP 3.0 via Ethernet

0 DNP 3.0

0 MODBUS TCP

0 MODBUS RTU

0 Profibus DP

0 SPABUS

0 LON (on request)

The REG-PED is capable of most of these protocols and may be switched between them and configured using the free WinConfig software. WinConfig is specifically designed to provide a similar configuration interface for all of the protocols, thereby reducing engineering time.

REG-DA OLTC Control Relay

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2. Characteristics of the REG-DA

0 Large backlit LCD (128 x 128) with all important information (tap, voltage etc.)

0 Measurement functions (U, I, P, Q, S, cos ϕ, ϕ, I sin ϕ, f ) 0 Recorder function (3-channel line recorder) 0 Statistics function (total number of switching operations,

switching operations per tap) 0 Event recorder (logbook) 0 Transformer monitoring functions to calculate the hot-

spot temperature and lifetime consumption and to control the fans and oil pumps. In addition the moisture content in cellulose and the risk of bubble formation is evaluated

0 14 (26) freely programmable binary inputs 0 9 (21) freely programmable binary outputs 0 Freely programmable analogue inputs or outputs (mA) 0 PT100 direct input 0 Input for tap-potentiometer

(200 Ω...20 kΩ total resistance) 0 Regulation of three winding transformers 0 Regulation of phase-shifting transformers 0 Regulation of transformer banks 0 Control of capacitor banks 0 Limit-value monitoring for all measured quantities 0 4 freely programmable setpoint values 0 Dynamic adjustment of the setpoint values based on the

load (Z-compensation, LDC) 0 Programmable rated U and I values 0 Open programmability enables implementation of PLC

functions (background program) 0 Peripheral bus (COM3) for additional interface modules

(ANA-D, BIN-D, Modbus converter) 0 Ability to enter externally measured quantities (gas-in-

oil ratio, winding temperature, etc.) by communicating directly with the measuring devices through Modbus

0 All of the measurements (including external measurements) and events can be transferred to SCADA

0 ParaGramer function to view and automate the parallel connection of up to ten transformers

0 WinREG software (with RegView, WinTM add-ons) to set parameters, program devices, and view and archive data

0 REGSim™ simulation software to simulate parallel operations, network and load situations

0 UL certification

3. Description

Functions of the REG-DA regulator (all options)

1 three current and two voltage measuring inputs

2 Analogue inputs, PT100 (optional)

3 Binary inputs

4 Input for resistance-coded tap-position indicator (optional)

5 Auxiliary voltage / Power Supply

6 Display and processing unit

7 Analogue outputs

8 Binary outputs

9 ELAN connection (2 x RS485 with repeater function)

10 COM1, RS232

11 COM1-S, RS232 (can be used alternatively to COM1)

12 COM2, RS232

13 COM3, RS485

14 Status contact (life contact)

Clock


3.1 Regulator mode The actual value and a fixed or load-dependent setpoint value are continually compared in the regulator, which then determines the correct commands for the transformer's tap changer. The regulator's parameters can be fine-tuned to the dynamic time behaviour of the grid voltage to obtain high control performance for a low number of switching operations.

Connecting transformers in parallel

Each regulator is capable of operating in parallel with up to 9 other regulators, without the need for additional components.

A number of different parallel control schemes are available, catering for transformers that operate in parallel on a single busbar, as well as those that are feeding the same grid from different substations.

Parallel control schemes are listed in Table 1 below:

Case REG-DA – Programme

Conditions

Parallel operation on one or more busbars

ΔI sin ϕ Identical transformers, identical or different tap size

ΔI sin ϕ (S) Transformers with different performances, different or equal tap size

Master/ slave

Identical transformers, same tap size

Free feed in Δ cos ϕ Any transformer, any tap size

Emergency program in the event of a ELAN failure

Δ cos ϕ Any transformer, any tap size,

for the programs ΔI sin ϕ and ΔI sin ϕ (S)

Table 1 Parallel operated transformers

3.2 Transducer mode

The values of all relevant variables of a three-wire, three-phase system with balanced or unbalanced load are calculated from the measured CT & VT inputs.

All of the measured and calculated values can then be viewed on the LCD display, or transferred by analogue signal and SCADA connection.

Measured quantities on the displays

Voltage Ueff Current Ieff Active power P Reactive power Q Apparent power S cos ϕ Phase angle ϕ Reactive current I*sinϕ Frequency f

Circulating reactive current (see page 2 of the transducer display)

All of the measured and calculated values can be transferred to an analogue output or to SCADA.


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3.3 Recorder mode

Up to two selectable analogue values can be continuously recorded and displayed as a line chart with an adjustable time grid. The tap position*, setpoint value*, tolerance band and Manual/Auto state, as well as the time and date are recorded in addition to these measured quantities. This enables the voltage and the time-correlated tap position to be viewed at any time, for example. The average storage time for voltage and tap position (1 channel) is approximately six weeks.

The stored values can also be retrieved and displayed by the WinREG Control software, using the REGView module.

(*requires the voltage to be recorded on channel 1)

Time grid dt 14 s, 1, 5, 10, 30, min / Division

Regardless of the selected time grid (feed rate) of the display, all of the measurements are stored at a standard rate of 1 data point per second. Each data point then represents the arithmetic mean of 10 measurements that were generated at 100 ms intervals.

Storage behaviour in the case of an overflow

Overwrite with FIFO (First in First out)

Storage time (voltage plus tap)

< 18.7 days worst case on average > 1 month

3.4 Statistics mode The Statistics mode records all of the tap changer's switching operations. Separate logs are stored for switching operations under load and without load.

This information can be used to analyse how many taps were made in a certain timeframe, as well as how often a particular tap was selected. This information is then used to fine-tune the regulator's settings.

The stored values can also be retrieved and displayed by the WinREG Control software, using the Service module.


3.5 ParaGramer mode ParaGramer is an efficient tool that automatically detects which transformers have been switched into a parallel control scheme and displays this information via a single-line diagram.

The artificial word ParaGramer is a combination of the terms parallel and single-line diagram.

Paragramer can monitor the positions of circuit breakers, isolators, bus ties and bus couplings. Based on the status of these inputs and of the regulators in the parallel scheme, the system automatically determines optimum tap positions for all of the transformers.

Multiple busbars are configurable on both the HV and LV sides of the transformers.

As shown in the graphic, both transformers A and C are working on busbar '3', while transformer B is feeding into busbar '4'.

3.5 Transformer monitoring module TMM

The Transformer Monitoring module collects and calculates information about the condition of the transformer and tap changer.

The hot-spot temperature is calculated in accordance with IEC 60354 and IEC 60076, and is used to determine the transformers loss of life.

The optional TM+ function evaluates the moisture content of the cellulose and the risk of bubble formation.

Up to 6 groups of fans and 2 oil pumps can be controlled to regulate the temperature of the transformer. The operating times of the fans and pumps are stored for maintenance purposes.

Oil temperature is measured either directly as a PT100 input, or via a mA transducer, and also be recorded using the Recorder mode.

A total of three analogue input slots are available in the REG-D, allowing the monitoring of several temperatures, oil levels, gas levels and so on.

Please refer to characteristic group 'E' in the Order specifications for a list of the combination options.


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4. Technical specifications Regulations and standards

0 IEC 61010-1 / EN 61010-1

0 CAN/CSA C22.2 No. 1010.1-92

0 CISPR 22 Ed.6 (2009-09)

0 IEC 60255-11 / EN 60255-11

0 IEC 60255-21 / EN 60255-21

0 IEC 60255-22-1 / EN 60255-22-1

0 IEC 60255-25 / EN 60255-25

0 IEC 60255-26 / EN 60255-26

0 IEC 60255-27 / EN 60255-27

0 IEC 61326-1 / EN 61326-1

0 IEC 60529 / EN 60529

0 IEC 60068-1 / EN 60068-1

0 IEC 60688 / EN 60688

0 IEC 61000-6-2 / EN 61000-6-2

0 IEC 61000-6-4 / EN 61000-6-4

0 IEC 61000-6-5 / EN 61000-6-5 (in preparation)

8

UL Certificate Number 050505 - E242284

AC voltage inputs (UE)

Measuring voltage UE 0 ... 160 V

Shape of the curve sinusoidal

Frequency range 16....50....60....65 Hz

Internal consumption U2 / 100 k

Overload capacity 230 V AC continuous

AC input (IE)

Measuring current In 1 A / 5 A software selectable

Shape of the curve sinusoidal

Frequency range 16....50....60....65 Hz

Control range 0 ... In ... 2.1 In

Internal consumption 0.5 VA

AC input (IE)

Overload capacity 10 A continuous 30 A for 10 s 100 A for 1 s 500 A for 5 ms

Analogue inputs (AI)

Quantity See order specifications

Input range

Y1...Y2

-20 mA...0...20 mA points Y1 and Y2 are programmable

Control limit ± 1.2 Y2

Voltage drop ≤ 1.5 V

Potential isolation Optocoupler

Common-mode rejection

> 80 dB

Series-mode rejection > 60 dB / Decade from 10 Hz

Overload capacity ≤ 50 mA continuous

Error limit 0.5%

The REG-DA is supplied with 1 x mA Analogue Input (e.g. for the tap position indicator) as standard.

The inputs can be continuously short-circuited or open circuited. All inputs are galvanically isolated from all of the other circuits.

Temperature input PT100

Quantity one PT100 input at Level III possible two PT100 inputs at Level II possible

Type of connection Three-wire circuit

Current through sensor < 8 mA


Line compensation No compensation required

Transmission behaviour linear

Resistance input (tap change potentiometer)

Quantity See order specifications

Connection Three-wire, convertible to four-wire

Total resistance in the resistor chain

R1: 180 Ω … 2 kΩ

R3: 2 kΩ … 20 kΩ

Tap resistance adjustable

R1: 5…100 Ω/tap

R3: 50…2000 Ω/tap

Number of taps ≤ 38


Current through resistor chain

max. 25 mA

The measuring device has an open circuit monitoring.


Analogue outputs (AO)

quantity See order specifications

Output range

Y1...Y2

-20 mA...0...20 mA Y1 and Y2 programmable

Control limit ± 1.2 Y2


Load range 0 ≤ R ≤ 8 V / Y2

Alternating component <0.5% of Y2

The outputs can be continuously short-circuited or open circuited. All outputs are galvanically isolated from all of the other circuits.

Binary inputs (BI) Inputs E1 ... E16 (... E22, ... E28)

Control signals Ust in the AC/DC range 48 V ... 250 V, 10 V ... 50 V, 80 V ... 250 V, 190 V ... 250 V in accordance with characteristic Dx

Shape of the curve, permissible

Rectangular, sinusoidal

48 V...250 V

– H - Level – L - Level

≥ 48 V < 10 V

10 V...50 V

– H - Level – L - Level – Input resistance

≥ 10 V < 5 V 6.8 kΩ

80 V … 250 V


≥ 80 V < 40 V

190 V … 250 V


≥ 176 V < 88 V

Signal frequency DC, 40 ... 70 Hz

Input resistance 108 kΩ, except 10...50 V

Potential isolation Optocoupler; groups of four, each galvanically isolated from each other.

Anti-bounce filter Software filter, with

50Hz AC input filter

Simplified diagram of a binary input

Binary outputs (BO)

R 1 ... R13 (... R19, ... R25) max. switching frequency

≤ 1 Hz

Potential isolation Isolated from all internal device potentials

Contact load AC: 250 V, 5 A (cosϕ = 1.0)

AC: 250 V, 3 A (cosϕ = 0.4)

Switching capacity max.

1250 V A

DC: 30 V, 5 A resistive

DC: 30 V, 3.5 A L/R=7 ms

DC: 110 V, 0.5 A resistive

DC: 220 V, 0.3 A resistive

Switching capacity max. 150 W

Inrush current 250 V AC, 30 V DC 10 A for max. 4 s

Switching operations ≥ 5·105 electrical

Display

LC - Display 128 x 128 graphic display

Back-lighting LED, automatic switch off after 15 minutes

Indicator elements

The regulator has 14 light-emitting diodes (LED)

LED Service Normal operation Green

LED Blocked Faulty operation Red

LED 1 ... LED 8 Freely programmable Yellow

LED 9 ... LED 12 Freely programmable Red

Each LED can be labelled on site. If the labelling wishes are known at the time of order placement, labelling can be done at the factory.

Analog/Digital Conversion

Type 12 bit successive-approximation converter

A/D bit resolution +/- 11 bit

Sampling rate 24 samples per period, e.g. 1.2 kHz at a 50Hz signal *

*The measurement inputs are equipped with an Anti-Aliasing filter.

Device real time clock

Accuracy +/- 20 ppm

Limit-value monitoring

Limit values programmable

Response times programmable

Alarm indicators LEDs are programmable or are programmable on an LCD


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Measured quantities (optionally as mA value) True RMS voltages U12, U23, U31 (≤ 0.25%)

True RMS current I1, I2 , I3 (≤ 0.25%)

Active power P (≤ 0.5%)

Reactive power Q (≤ 0.5%)

Apparent power S (≤ 0.5%)

Power factor cos ϕ (≤ 0.5%)

Phase angle ϕ (≤ 0.5%)

Reactive current I · sin ϕ (≤ 1%)

Frequency f (≤ 0.05%)

Reference conditions Reference temperature 23°C ± 1 K

Input quantities UE = 0 ... 160 V IE = 0 ... 1A / 0 ... 5A

Auxiliary voltage H = Hn ± 1%

Frequency 45 Hz...65 Hz

Shape of the curve Sinusoidal, form factor 1.1107

Load (only for characteristics E91...E99) Rn = 5 V / Y2 ± 1%

Other IEC 60688 - Part 1

Transmission behaviour of the analogue outputs Error limit 0.05% / 0.25% / 0.5% / 1% related to

Y2 (see 'Measured quantities')

Measurement cycle time

≤ 10 ms

Electrical safety Safety class I

Degree of pollution 2

Measurement category Measurement category

IV/150 V III/300 V

Operating voltages

50 V 150 V 230 V

E-LAN, COM1 ... COM3 Analogue in/outputs Inputs 10...50 V

Voltage inputs, current inputs

Auxiliary voltage, binary inputs, relay outputs

Electromagnetic compatibility EMC requirements EN 61326-1

Equipment class A Continuous, unmonitored operation, industrial location and EN 61000-6-2 and EN 61000-6-4 and EN 60255-X

Interference emissions

Conducted and radiated emission

EN 61326 Table 3 EN 61000-6-4 EN 60255-25/-26 CISPR 22 Ed. 6

Harmonic currents EN 61000-3-2

Voltage fluctuations and flicker

EN 61000-3-3

Disturbance immunity EN 61326 Table A1 EN 61000-6-2 EN 60255-11/-22/-26

ESD IEC 61000-6-5 6 kV/8 kV contact/air

Electromagnetic fields IEC 61000-4-3\80 – 2000 MHz: 10 V/m

Fast transient IEC 61000-4-4 4 kV/2 kV

Surge voltages IEC 61000-4-5 4 kV/2 kV

Conducted HF signals IEC 61000-4-6 150 kHz – 80 MHz: 10 V

Power-frequency magnetic fields

IEC 61000-4-8 100 A/m (50 Hz), continuous 1000 A/m (50 Hz), 1 s

Voltage dips IEC 61000-4-11, EN 60255-11 30% / 500ms, 60% / 200ms

Voltage interruptions IEC 61000-4-11 100% / 5s

Damped oscillations IEC 61000-4-12, Class 3, 2.5 kV

Ripple on d.c. input power port immunity test

IEC 60255-11 AC ripple 15% of Ur, 100 Hz, 5 min

Test voltages* Description Test voltage / kV counter circuits

Auxiliary voltage Uh 2.3 COMs, AI, AO

Auxiliary voltage Uh 2.3 BI, BO

Measuring voltage Ue 2.3 COMs, AI, AO

Measuring voltage Ue 3.3 Uh, BI, BO

Measuring voltage Ue 2.2 Ie

Measuring current Ie 2.3 COMs, AI, AO

Measuring current Ie 3.3 Uh, BI, BO

Interfaces, COMs COMs 2.3 BI, BO

Analogue outputs AO 2.3 BI, BO

Analogue outputs AO 0.5 COMs, AI

Analogue inputs AI 2.3 BI, BO

Analogue inputs AI 0.5 COMs, AO

Binary inputs BI 2.3 BI

Binary inputs BI 2.3 BO

Binary outputs BO 2.3 BO *All test voltages are AC voltages in kV, which may be applied for 1 minute. The COM interfaces are tested against each other with 0.5kV.


Auxiliary Voltage

Characteristic H0 H2

AC 85 … 264 V –

DC 88 ... 280 V 18 ... 72 V

AC Power consumption

≤ 35 VA –

DC Power consumption

≤ 25 W ≤ 25 W

Frequency 45 ... 400Hz –

Microfuse T1 250 V T2 250 V

The following applies to all characteristics: Voltage dips of ≤ 25 ms result neither in data loss nor malfunctions. Fuses are time lag (slow blow) type.

Ambient conditions

Temperature range

Function Transport and storage

-15°C ... +60 °C -25 °C ... +65°C

Dry cold IEC 60068-2-1, - 15 °C / 16 h

Dry heat IEC 60068-2-2, + 65 °C / 16 h

Humid heat constant

IEC 60068-2-78 + 40°C / 93% / 2 days

Humid heat cyclical

IEC 60068-2-30 12+12 h, 6 cycles +55°C / 93%

Drop and topple IEC 60068-2-31 100 mm drop height, unpackaged

Vibration IEC 60255-21-1, Class 1

Shock IEC 60255-21-2, Class 1

Earthquake resistance IEC 60255-21-3, Class 1

Storage

Firmware and recorder data Characteristic S2

Flash memory

Device characteristics and calibration data

serial EEPROM with ≥ 1000 k write/read cycles

Other data and recorder data Characteristic S1

MRAM

The button cell on these devices is used to buffer the real time clock if the aux. power supply is off.

5. Mechanical design Housing

– Height

– Width

– Total depth

– Mounting depth

– Weight

Sheet steel, RAL 7035 light-grey

325 mm incl. PG connectors

250 mm

114 mm

87 mm

≤ 6.0 kg

Housing door with silicate glass

Front panel Plastic, RAL 7035 grey on aluminium brackets

Control panel cut-out

– Height

– Width

282 mm 210 mm

Protection type IP 54

Protection type with brush sealing

IP 12

Conductor Cross Section and tightening torque of Terminals

Level Function/ terminal no.

cross section / mm2

torque

stranded solid Nm

I measurement input 1..10

4 6 0,6

I BIs, relays, power supply 11…60

2,5 2,5 0,6

II SCADA interface (without XW90..93+97+98), 87…98

0,5 0,5 ---

II SCADA interface (only XW90..93+97+98) 87…94

2,5 2,5 0,6

II Extensions C10, C90..99 100…113

2,5 2,5 0,6

III COMs, analogue IO

61…86/200…209 1,5 1,5 0,25


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Mechanical dimensions, in mm

Mechanical dimensions, panel mounting


Mechanical dimensions, DIN rail mounting, in mm

Mechanical dimensions, wall mounting, in mm


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General information about the connection technology

The regulator has three printed circuit boards or connection levels.

The auxiliary voltage, the VT & CT inputs, as well as the relay outputs, binary inputs etc., are all connected on Level I.

The hardware for all SCADA connectivity is on Level II.

When working with an Ethernet connection (such as for IEC 61850, IEC 60870-5-104 or DNP 3.0 over Ethernet), the corresponding plug connection is also accessible on Level II (RJ45 and/or ST/LC fibreglass).

Additional binary inputs and outputs, and mA inputs and outputs can also be installed on Level II.

There are two slots available, each of which can be equipped with the following modules:

Module 1 : 6 binary inputs AC/ 48 V...250 V

Module 2 : 6 relay outputs

Module 3 : 2 mA inputs

Module 4 : 2 mA outputs

Module 5 : PT100 – input

Module 6 : Standalone monitoring unit PAN-A2 occupies both slots

The connections for the REG-DA COM ports, the E-LANs, additional analogue inputs and outputs, as well as for the PT100 direct input (E91 + E94) or resistance input (E97 + E98) cards, are located on Level III.

Fibre optical connection (1 x Ethernet-ST, XW93) at

Level II; REG-DA Com ports at Level III

Optical Serial Protocol Interfaces

For fibre optic serial connections up to a baud rate of 19200 (e.g. DNP, IEC 60870-5-101 or 103), ST or FSMA connectors are directly mounted on the flange plate for access without opening the REG-DA door.

Please refer to the list of characteristics for an overview of the available options.

Fibre optical connection (ST-connector, V17, V19)

Fibre optical connection (FSMA-connector, V13, V15)


Optical transmitter

Serial communication up to 19200 baud (characteristic V13 ... V19)

Product Wave length

Fibre Pmin [dBm] 1)

Pmax [dBm] 1)

Fibreglass ST Fibreglass FSMA

λ = 820 nm 50/125 μm NA=0.2

-19.8 -12.8

62.5/125 μm

NA=0.275

-16.0 -9.0

100/140 μm NA=0.3

-10.5 -3.5

200 μm HCS NA=0.37

-6.2 +1.8

All-plastic ST

λ = 650 nm 1 mm POF -7.5 -3.5

200 μm HCS -18.0 -8.5

All-plastic FSMA

λ = 650 nm 1 mm POF -6.2 0.0

200 μm -16.9 -8.5

Communication over Ethernet 100 Mbit (100Base Fx) (characteristics XW92, XW93.x, XW95.x, XW96.1 and XW98)

Product Wave length

Fibre Pmin [dBm] 1)

Pmax [dBm] 1)

Fibreglass ST Fibreglass LC

1310 nm 62.5/125 μm

NA=0.275

-20 -14

1) TA = 0..70°C, IF = 60 mA, measured after 1 m fibre optic cable

Optical receiver

Serial communication up to 19200 baud (characteristic V13 ... V19)

Product Wave length

Fibre Pmin [dBm] 2)

Pmax [dBm] 2)

Fibreglass ST Fibreglass FSMA

λ = 820 nm 100/140 μm NA=0.3

-24.0 -10.8

All-platic ST

λ = 650 nm 1 mm POF -20.0 0.0

200 μm HCS -22.0 -2.0

All-plastic FSMA

λ = 650 nm 1 mm POF -21.6 -2.0

200 μm -23.0 -3.4

Communication over Ethernet 100 Mbit (100Base Fx) (characteristics XW92, XW93.x, XW95.x, XW96.1 and XW98)

Product Wave length

Fibre Pmin [dBm] 2)

Pmax [dBm] 2)

Fibreglass ST Fibreglass LC

1310 nm 62.5/125 μm

NA=0.275

-14 -32

2) TA = 0...70°C, VCC = 5 V±5%, output level LOW (active)


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6. Terminal configuration No.

Leve

l I

Option M1* M2* M9*

2 5

Measuring voltage Measuring voltage

U1a U1b

UL1 UL2

U1a U1b

8 10

Measuring voltage Measuring voltage

- UL3

- U2a U2b

1 3

S1 S2

Current input I1

4 6

S1 S2 Current input I2

7 9

S1 S2

Current input I3

21 22

L/(+) L/(-) UH = Auxiliary voltage

Leve

l III

63 mA input + A1

64 mA input - A1

61 mA input or output + A2

62 mA input or output - A2





Leve

l I

11 Binary input 1 Freely programmable




15 Binary input 1...4 GND

16 Binary input 5 AUTO

17 Binary input 6 MAN




23 Binary input 9 BCD 1

24 Binary input 10 BCD 2 25 Binary input 11 BCD 4 26 Binary input 12 BCD 8 27 Binary input 9...12 GND

28 Binary input 13 BCD 10 29 Binary input 14 BCD 20 30 Binary input 15 BCD sgn. 31 Binary input 16 Freely programmable


33 Freely programmable

R5 34


R4 36


R3 38

39

lower R2 40

41

42

43

higher R1 44

45

46

Leve

l I

47 >I R11

48 >U R10

49 <U R9

50 Local R8

51 Remote R7

52 TC error** R6

53 GND R6...R11

54 closes in the event of fault

55 Life contact (status)

56 opens in the event of fault

57 MANUAL

58 MAN/AUTO

59 AUTO

Leve

l III

69 E-

E-LAN (L) 70 E+

71 EA-

72 EA+

2000

GND

73 E-

E-LAN (R)

74 E+

75 EA-

76 EA+

2010

GND

77 Tx+

COM3 (RS485)

78 Tx-

79 Rx+

80 Rx-

81 GND

82 TxD

COM2 (RS232)

83 RxD

84 RTS

85 CTS

86 GND

2020

DCF-

2030

DCF+ DCF 77 ***

2040

GND

2050

TxD

2060

RxD

2070

RTS COM1 - S

2080

CTS

2090

GND

210 GND Aux. power supply output 5 V DC (max. 2W) 211 VCC+

Leve

l II

Please refer to Terminal Configuration Level II (page 16) for additional fitting options on Level II. And to the terminal configuration of the SCADA interface on page 17 for the SCADA interface connections.

*Option M1 Used for standard applications. Three-wire networks are generally considered as symmetrical

(I1 = I2 = I3)

Option M2 Only used in asymmetrically loaded three-phase systems

(I1 ≠ I2 ≠ I3)

Option M9 For triple-wound applications, two galvanically isolated voltage inputs are available for U1 and U2.

** TC = tap changer *** Please refer to terminal configuration of the SCADA interface on page 17 for the SCADA interface connections. *** The DCF77 input is implemented from FW 2.22 onwards. The allocation of terminals 23 to 32 changes depending on characteristics D0 / D1/ D4 / D7 / D9 and D2 / D3 / D5/ D6 / D8

ϑ


Position of the terminal connections

Characteristics D0, D1, D4, D7, D9

Position of the terminal connections

Characteristics D2, D3, D5, D6, D8


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6.1 Terminal Configuration Level II Characteristics: C10, C90...C99

Characteristic C10 – Standalone monitoring function No.

Mo

du

le 6

100 lower command interlock

101 102 raise command

interlock 103 104 Overvoltage >U

Root Undervoltage <U

105 106 107 measuring voltage U1a 108 U1b 109

COM 1 COM 2 RS 232

COM1 / RxD 110 COM1 / TxD 111 COM1/2/GND 112 COM2 / RxD 113 COM2 / TxD

Characteristic C90 – (e.g. 2 x PT100, other combinations are possible) No.

Mo

du

le 5

100

PT100

Ik+

A10 101 Ue+ 102 Ue- 103 Ik-

Mo

du

le 5

104

PT100

Ik+

A12 105 Ue+ 106 Ue- 107 Ik-

Characteristic C91 – 6 additional binary inputs AC/DC 48 V ... 250 V No.

Mo

du

le 1

100 Binary input E17 101 Binary input E18 102 Binary input E19 103 Binary input E20 104 Binary input E21 105 Binary input E22 106 GND E17 … E22

Characteristic C92 – 12 additional binary inputs AC/DC 48 V ... 250 V No.

Mo

du

le 1


Mo

du

le 1


Characteristic C93 – 6 additional relay outputs (NOC) No.

Mo

du

le 2

100 R12 101 R13 102 R14 103 R15 104 R16 105 R17 106 GND R12 … R17

Characteristic C94 – 12 additional outputs (NOC) No.

Mo

du

le 2

100 R12 101 R13 102 R14 103 R15 104 R16 105 R17 106 GND R12 … R17

Mo

du

le 2

107 R18

8 108 R19 109 R20 110 R21 111 R22 112 R23 113 GND R18 … R23

Characteristic C95– 6 additional binary inputs AC/DC 48 V ... 250 V

and 6 additional relay outputs (NOC) No.

Mo

du

le 1


Mo

du

le 2

107 R12 108 R13 109 R14 110 R15 111 R16 112 R17 113 GND R12 … R17

Characteristic C96 – 2 additional analogue inputs No.

Mo

du

le 3

100 analogue input + A10 101 - 102 analogue input + A11 103 -

Characteristic C97 – 4 additional analogue inputs No.

Mo

du

le 3


Mo

du

le 3


Characteristic C98 – 2 additional analogue outputs No.

Mo

du

le 4

100 analogue output + A10 101 - 102 analogue output + A11 103 -

Characteristic C99 – 4 additional analogue outputs No.

Mo

du

le 4


Mo

du

le 4



6.2 Terminal Configuration for SCADA interface on Level II

Characteristics: Z10..15, 17..21, 90, 91, 99, XW90…98

Characteristics Z10..15, 17..20, 90, 91–REG-P communication interface No.

CO

M1

R

S48

5 87 RS485-N (B)

88 RS485-P (A)

CO

M1

R

S23

2

89 RS232-TxD 90 RS232-RxD 91 RS232-RTS 92 RS232-CTS 93 RS232-GND

PE 94 PE

CO

M1

fi

bre

op

tic 95 Fibre optic In

Fibre optic module Fibre optic

cable

96 Fibre optic Out

97 Fibre optic GND

98 Fibre optic VCC

Characteristic Z21–REG-LON communication interface No.

Fib

re

op

tic

Fibre optic cable In Fibre optic

module Fibre optic cable

Fibre optic cable Out Fibre optic cable GND Fibre optic cable VCC

Characteristic Z99–Profibus-DP communication interface No.

PA

RA

M

(RJ1

1)

1 RS232-GND 2 RS232-GND 3 RS232-RxD 4 RS232-TxD

Pro

fib

us-

DP

(SU

B-D

) 3 B-Line (Rx/Tx +) 4 RTS 5 GND BUS 6 +5 V BUS 8 A-Line (Rx/Tx -)

Characteristics XW90..93+97+98–REG-PE communication interf. No.

PA

RA

M1

87 RS232-RxD

88 RS232-TxD

89 RS232-GND

90 RS232-GND-SCR

PA

RA

M 2

91 RS232-RxD

92 RS232-TxD

93 RS232-GND

94 RS232-GND-SCR

Eth

ern

et

RJ45 connector or

Fibre optic cable (ST or LC)

Characteristics XW94..96–REG-PED communication interface No.

CO

M1

87 RS485-P (A) 88 RS232-N (B) 89 RS232-TxD 90 RS232-RxD 91 RS232-RTS 92 RS232-CTS 93 RS232-GND

PE 94 PE/Shield

PA

RA

M 95 PARAM-RxD

96 PARAM-TxD

97 PARAM-GND

Eth

ern

et 1

RJ45 connector or


Eth

ern

et 2

RJ45 connector or



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6.3 Block diagram - Characteristics D0, D1, D4, D7, D9

*) The dual module comes as a dual mA input module or a dual mA output module. The position is occupied by a PT100 module if the temperature is to be recorded directly.


6.4 Block diagram - Characteristics D2, D3, D5, D6, D8

*) The dual module comes as a dual mA input module or a dual mA output module. The position is occupied by a PT100 module if the temperature is to be recorded directly.


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7. Interfaces and software Several regulators need to be interconnected in a network when transformers are connected in parallel. The ΔI*sinϕ, ΔI*sinϕ (S) and Master-Follower parallel programs can only be implemented through the system bus (ELAN). This bus enables each of the members in a group of parallel regulators to communicate with each other easily, without using any additional components.

The regulators do not have to be connected in order to run a parallel program that functions in accordance to the Δcosϕ method. It may not be possible to connect the participants due to the long distances between them, for example.

If an interconnection needs to be established over long distances, the ELAN can be redirected through a fibre optic cable or an Ethernet connection.

7.1 Serial interfaces

The REG-DA has two RS232 serial interfaces with three connections (COM1, COM1-S, COM2).

COM1 is the parameterisation interface, while COM1-S is an alternative connection option for COM1. COM1 has priority, meaning that when COM1 is connected, COM1-S is disabled. Devices connected to COM1-S do not have to be physically disconnected. This enables COM1-S to function as an alternative remote parameterisation interface that is only active when parameters are not being set locally. COM1 can also be configured as a USB port (optional).

COM2 is mainly used to connect the regulator to the SCADA system. If a SACDA interface is not installed, COM2 in the terminal compartment can be used to connect a modem, a COM server, a PC or a DCF77 receiver.

Connection Elements

COM1 Sub-D 9-pole male (optionally as mini-USB) at Level III

COM1-S Terminal connection at Level III

COM2 Terminal connection at Level III

Connection options PC, modem, PLC, SCADA interface, DCF77 signal

Number of data bits/protocol

Data bits: 8

Parity: even, none

Transmission rate bit/s

1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200

HANDSHAKE RTS / CTS, XON / XOFF, delay, none

ELAN (Energy - Local Area Network)

Each REG-DA regulator comes with two E-LAN interfaces that are used to connect individual regulators and monitoring units to a voltage regulation system.

E-LAN Characteristics

0 255 addressable participants

0 Multi-master structure

0 Integrated repeater function

0 Open ring, bus or point-to-point connection possible

0 Transmission rate 15.6 ... 375 kbit/s


COM3 (peripheral interface)

Com3 is an RS485 or optional fibre optic interface used to connect up to 16 interface modules (BIN D, ANA D) in any combination to a REG-D or PAN-D. A COM3/Modbus converter can also be selected, in order to establish direct serial communication with other Modbus devices. This enables the REG-DA to acquire values such as the winding temperature or the gas-in-oil ratio from other devices and transmit them to the SCADA or record them in Recorder mode.

Time Synchronisation Input (DCF input)

A time synchronisation input enables the time on the REG-DA to be synchronised using a DCF77 signal. This input is designed for an RS485 (5 V) signal and can be wired as a time synchronisation bus to several devices. The termination (terminating resistor) can be switched on and off by using jumpers on the CPU board.

If a DCF signal cannot be received, a GPS clock or controller card that emulates a DCF signal can be used. Time can also be synchronised through SCADA.

Time synchronisation input is not supported until firmware version 2.22.

7.2 WinREG Parameterisation and Configuration Software

WinREG is used to parameterise and program the a system. WinREG is modular and consists of the following programs: PanelView enables you to display an accurate replica of each device and its operating options on your PC screen. All buttons and functions are active from this replica, and multiple devices on the ELAN can be displayed at once. REGPara enables each of the components to be quickly and easily parameterised. The parameters are set in a straightforward tab structure, and can be saved for later use or transferred to another regulator on the ELAN bus. The Terminal enables direct communication with the system. The WinREG Terminal is much easier to use than the normal terminal programs and makes programming the system a lot easier. Service enables the logbook and the tap statistics to be read out of the devices and archived. This is also where the parameters for daylight savings, the allocation of add-on modules, and the remote control of simulation mode are found. The Collector reads the recorded data from the REG-DA and archives it on the PC. REGView is used to view and analyse recorded data directly on the REG-DA or in a data file (collector). The WinTM module (parameters for the transformer monitoring module) and the WinDM module (parameters for the transformer monitoring device without voltage regulator) complete the software suite. WinREG runs on the following operating systems: 0 Windows XP, Vista, Windows 7 / 8 / 10

0 Windows Server from 2003 onwards All of the settings can be made either directly on the regulator using the regulator's membrane keyboard, or centrally through WinREG. If the device is to be accessed through a central point, all of the regulators must be connected to each other through the E-LAN.

REG-DA Parameters (selection)

Parameter Setting range

Permissible voltage deviation ± 0.1 ... 10 %

Time factor 0.1 ... 30

Setpoint value 1..2 60.0 ... 140.0 V

Setpoint value 3..4

60.0 ... 140.0 V or

-140 … 140% for P/Q regulation

Time behaviour

ΔU · t = const REG 5A/E LINEAR CONST

Trend memory 0 ... 60 s

current influence

(load-dependent setpoint)

Apparent current Active current Reactive current LDC

Apparent, active, reactive current

Increase (I) (pos.) Increase (I) (neg.) Limit (I) (max.)

Limit (I) (min.)

0 ... 400 V/In 0 ... 400 V/In -40 ... 40 V

-40 ... 40 V

LDC (Line drop compensation) R : 0 ... ± 30 Ω X : 0 ... ± 30 Ω

Undervoltage <U -25% ... +10 %

Overvoltage >U 0 ... 25 %

Overcurrent >I 0 ... 210% (1A / 5A)

Undercurrent >I 0 ... 100 % (1A / 5A)

Inhibit High 65 V ... 150 V

Fast switching forward 0 ... -35 %

Fast switching backward 0 ... 35 %

Inhibit low -75 % ... 0 %

Switching delay for <U, >U, <I, inhibit high, Fast switching, Inhibit low can be set separately

1 ... 999 s (Fast step-up 2...999 s)

Parallel programs dI*sin(phi) dI*sin(phi)[S] dcos (phi) Master-slave MSI MSI2

TC in operation - maximum time

3 ... 40 s


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7.3 REGSimTM Simulation Software REGSim™ was designed to simulate the parallel connection of several transformers in any network and load¬ configuration, and to show the results on a PC.

To ensure that the REG-DA produces the same results during the simulation as in a live environment, the transformers, the network and the load are accurately recreated mathematically.

The authenticity of the simulation is guaranteed because REGSimTM uses the REG-DA regulator's original algorithm.

All of the settings match those of the real regulator and the simulation is run in real time.

REGSimTM enables parameters to be tested and set before using them in a live environment.


8. Order specifications 0 Only one code of the same capital letter is possible

0 When the capital letter is followed by number 9, further details are necessary

0 The code can be omitted when the capital letter is followed by zero or one option is marked as standard

0 X characteristics such as XE91 cannot be combined with all of the other characteristics. Please read the notes and explanations.

CHARACTERISTIC CODE

REG-DA relay for voltage control 0 with dual ELAN interface COM2, COM3 and one mA input channel, for example, to measure the oil

temperature or get the tap position via mA signal 0 with 16 binary inputs and 12 relay outputs plus a status output, and includes the parameterisation

software WinREG to set parameters, program and view all regulator data and connection cables. Note: COM2 is only freely accessible when operated without SCADA interface.

REG-DA

Model 0 In-panel mounting or wall mounting (H x W x D) 307 x 250 x 102 mm including flange plate with brush

element 0 with DIN rail adapter

B0

B1

Serial interface COM1 0 RS232 with SUB-D connector (9-pin male), standard if characteristic I is not specified 0 USB

I0 I1

Power supply 0 external AC 85 V ... 110V ... 264 V / DC 88 V ... 220V ... 280V 0 external DC 18 V ... 60V ... 72V

H0 H2

Input current (can be changed at a later stage) 0 IEN 1A 0 IEN 5A

F1 F2

Voltage and current measurement 0 Three-wire three-phase system with balanced load 0 Three-wire three-phase system with unbalanced load (ARON connection) 0 Voltage measurement (high voltage), current and voltage measurement (low voltage) 0 other transducer applications (2 x I, 2 x U, e.g. triple-wound)

M1 M2 M3 M9

Recorder function for network quantities incl. REGView evaluation software 0 without 0 with max. 3 channels 0 with max. 256 channels and 108 MB internal memory and upgraded CPU

(better performance for e.g. the PLC functionality)

S0 S1 S2

Transformer monitoring 0 without 0 with transformer monitoring in accordance to IEC 60354 and IEC 60076 0 additional calculation of the moisture in cellulose and the risk of bubble formation

(TM+, Moisture Assessment Module) Note: The feature T2 is only available in combination with the features S2 and T1

T0 T1 T2

Parallel operation 0 without firmware for parallel operation 0 with firmware for parallel operation

K0 K1

additional analogue inputs and outputs 0 without 0 with one PT100 input 0 with two mA inputs 0 with two mA outputs 0 with one PT100 input and one mA output 0 with two mA inputs and one mA output

E00 E91 E92 E93 E94 E95


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CHARACTERISTIC CODE

0 with three mA outputs 0 Tap potentiometer input total resistance 180 Ω ... 2 kΩ, min. 5 Ω/tap 0 Tap potentiometer input total resistance 2 kΩ ... 20 kΩ, min. 50 Ω/tap 0 other combinations of inputs and outputs

E96 E97 E98 E99

Binary inputs and tap change potentiometer input 0 16 binary inputs AC/DC 48...250 V (E1...E16) 0 8 binary inputs AC/DC 10..50 V (E1…E8) and 8 units AC/DC 48...250 V (E9…E16) 0 16 binary inputs AC/DC 10…50 V (E1…E16) 0 16 binary inputs AC/DC 190...250 V (E1...E16) 0 16 binary inputs AC/DC 80...250 V (E1...E16) 0 1 tap potentiometer input (total resistance 180 ... 2 kΩ) and 8 binary inputs AC/DC 48...250 V 0 1 tap potentiometer input (total resistance >2 ... 20 kΩ) and 8 binary inputs AC/DC 10…50 V 0 1 tap potentiometer input (total resistance 180 ... 2 kΩ) and 8 binary inputs AC/DC 10…50 V 0 1 tap potentiometer input (total resistance >2 ... 20 kΩ) and 8 binary inputs AC/DC 48…250V 0 1 tap potentiometer input (total resistance >2 ... 20k Ω) and 8 binary inputs AC/DC 80...250 V

D0 D1 D4 D7 D9 D2 D3 D5 D6 D8

Level II: additional inputs and outputs as well as the standalone monitoring function PAN-A2 0 without 0 with 6 binary inputs AC/DC 48 V...250 V 0 with 12 binary inputs AC/DC 48 V...250 V 0 with 6 relay outputs 0 with 12 relay outputs 0 with 6 binary inputs and 6 relay outputs 0 with 2 analogue inputs 0 with 4 analogue inputs 0 with 2 analogue outputs 0 with 4 analogue outputs 0 with standalone monitoring function (PAN-A2) 0 other combinations 6 inputs, 6 outputs, 2 analogue inputs, 2 analogue outputs or PT100 input Note for C90: Two slots are usually available on Level II. Each slot can be equipped with 6 binary inputs, 6 binary outputs or with an analogue module.

C00 C91 C92 C93 C94 C95 C96 C97 C98 C99 C10 C90

COM3 interface 0 RS485 (standard, feature may be omitted) 0 RS485 and for remote components fibre optic interface (fibre glass) with ST connector Note: COM3 is needed for ANA-D, BIN-D and COM3/Modbus converter!

R1 R2

Integrated SCADA connection in conformity with: IEC61850, IEC 60870- 5-104, DNP 3.0 or MODBUS 0 without (continue with characteristic group 'L')

0 IEC 60870-5-104/RJ 45 (continue with characteristic group 'G') 0 IEC 60870-5-104 with fibre optic connection (continue with characteristic group 'G') Note: Please specify the target SCADA system for connections in conformity with IEC 60850-5-104.

0 IEC 61850/RJ 45 (continue with characteristic group 'G') 0 IEC 61850 with fibre optic with ST connection (continue with characteristic group 'G') 0 IEC 61850 with fibre optic with LC connection (continue with characteristic group 'G') 0 IEC 61850 with 2 x RJ45 connection (continue with characteristic group 'G') 0 IEC 61850 with 2 x fibre optic with ST connection (continue with characteristic group 'G') 0 IEC 61850 with 2 x fibre optic with LC connection (continue with characteristic group 'G') 0 IEC 61850 with 1 x RJ45 and 1 x fibre optic with ST connection (continue with characteristic group 'G') 0 IEC 61850 with 1 x RJ45 and 1 x fibre optic with LC connection (continue with characteristic group 'G') Note: Please specify the target SCADA system for connections in conformity with IEC 61850. 0 DNP 3.0 over Ethernet with 1 x RJ45 connection (continue with characteristic group 'G') 0 DNP 3.0 over Ethernet with 2 x RJ45 connection (continue with characteristic group 'G') 0 DNP 3.0 over Ethernet with 1 x fibre optic with ST connection (continue with characteristic group 'G') 0 DNP 3.0 over Ethernet with 1 x fibre optic with LC connection (continue with characteristic group 'G') 0 DNP 3.0 over Ethernet with 2 x fibre optic with ST connection (continue with characteristic group 'G')

XW00

XW90 XW92

XW91 XW93

XW93.1 XW94 XW95

XW95.1 XW96

XW96.1

XW97 XW94.1 XW98

XW98.1 XW95.2


CHARACTERISTIC CODE

0 DNP 3.0 over Ethernet with 2 x fibre optic with LC connection (continue with characteristic group 'G') 0 DNP 3.0 over Ethernet with 1 x RJ45 and 1 x fibre optic with ST connection (continue with

characteristic group 'G') 0 DNP 3.0 over Ethernet with 1 x RJ45 and 1 x fibre optic with LC connection (continue with

characteristic group 'G') Note: Please specify the target SCADA system for connections in conformity with DNP 3.0.

0 MODBUS TCP/IP with 2 x RJ45 connection (continue with code "G") 0 MODBUS RTU with RS485 (and with 1x RJ45/1x FO) connection (continue with code "G") 0 SPABUS/ RJ 45 (continue with code "Gx") 0 SPABUS/ FO-ST-connection (continue with code "Gx") 0 SPABUS/ FO-LC-connection (continue with code "Gx") 0 SPABUS/ 2x RJ 45 (continue with code "Gx") 0 SPABUS/ 1x RS485 with 2x RJ45 (continue with code "Gx") 0 SPABUS/ 2x FO-ST-connection (continue with code "Gx") 0 SPABUS/ 2x FO-LC-connection (continue with code "Gx")

0 other SCADA protocols on demand

XW95.3 XW96.4

XW96.5

XW94.2 XW96.2

XW91.2 XW93.2 XW93.3 XW94.4 XW94.5 XW95.3 XW95.4

XW99

Integrated SCADA connection in conformity with: IEC 60870- 5-101/ ..-103,…DNP… 0 without (continue with characteristic group 'G') 0 to connect the REG-DA to a control centre 0 to connect several systems to a control centre (REG-D/DA/DP etc.) Note: L9 can only be combined with characteristics Z15 to Z19 and Z91.

L0 L1 L9

Connection type 0 Copper

– RS232

– RS485 2-wire operation only 0 Fibre optic cable with FSMA connection technology

– Fibreglass (Wave length 800...900 nm, range 2000 m)

– All-plastic (Wave length 620...680 nm, range 50 m) 0 Fibre optic cable with ST connection technology

– Fibreglass (Wave length 800...900 nm, range 2000 m)

– All-plastic (Wave length 620...680 nm, range 50 m)

V10 V11

V13 V15

V17 V19

Protocol 0 IEC60870-5-103 for ABB 0 IEC60870-5-103 for Areva 0 IEC60870-5-103 for SAT 0 IEC60870-5-103 for Siemens (LSA/SAS) 0 IEC60870-5-103 for Sprecher Automation 0 IEC60870-5-103 for others 0 IEC60870-5-101 for ABB 0 IEC60870-5-101 for IDS 0 IEC60870-5-101 for SAT 0 IEC60870-5-101 for Siemens (LSA/SAS) 0 IEC60870-5-101 for others 0 DNP 3.00 0 LONMark (on request) 0 Profibus-DP (always with V11!)

Z10 Z11 Z12 Z13 Z14 Z90 Z15 Z17 Z18 Z19 Z91 Z20 Z21 Z99


Page 26

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CHARACTERISTIC CODE

Operating instructions 0 German 0 English 0 French 0 Spanish 0 Italian 0 Russian 0 Portuguese 0 Czech 0 other

G1 G2 G3 G4 G5 G6 G7 G8 G9

Display language 0 German 0 English 0 French 0 Spanish 0 Italian 0 Russian 0 Portuguese 0 Czech 0 Dutch 0 Polish

A1 A2 A3 A4 A5 A6 A7 A8 A9

A10

Use of IEC 61850 GOOSE applications GOOSE

IEC 61850 with bonding in broadcast mode (only available with two Ethernet ports) Bonding

IEC 61850 with Parallel Redundancy protocol (PRP) V1 (only available with two Ethernet ports) PRP

IEC 61850 with Rapid Spanning Tree Protocol (RSTP) (only available with two Ethernet ports) RSTP

DCF simulation over NTP and ELAN extension over Ethernet (CSE) Note: Only in combination with XW94.x, XW95.x, XW96.x

DCF/ELAN

REG-DA accessories ID-No.

Fuses, batteries:

1 pack microfuses T1 L 250 V, 1 A, for auxiliary voltage range H0 582.1002

1 pack microfuses T2 L 250 V, 2 A, for auxiliary voltage range H2 582.1019

1 lithium battery (pluggable) 570.0003.00

1 lithium battery (solderable) on request

1 button cell CR1632 on request

Connection technique:

PC connection cable (zero-modem cable) 582.020B

PC connection cable (USB A to Mini USB for devices with order code I1) 582.020U

Modem connection cable 582.2040

RS232 10 m extension cable 582.2040.10

USB/RS232 adapter with integrated null-modem cable (FTDI), 1,5m 111.9046.01

Interface ELAN-FO: RS485/FO (ELAN → FO or FO→ ELAN) FO-connector ST Note: 2 units required per line

111.9030.10

Interface ELAN-FO: RS485/FO (ELAN → FO or FO→ ELAN) FO-connector LC

Note: 2 units required per line

111.9030.11

ELAN booster, Uh: DC 20..75 V, DIN rail housing 22.5 mm width, if necessary with power supply adapter H1 111.9030.36

111.9027.02

ELAN router, one outgoing circuit with booster, Uh: DC 20..75 V, DIN rail housing 22.5 mm width, if 111.9027.03


REG-DA accessories ID-No.

necessary with power supply adapter H1 111.9030.36

Time synchronisation:

Radio clock (DFC 77) 111.9024.01

GPS radio clock NIS time, RS485, Uh: AC 85 V ... 110V ... 264 V / DC 88 V ... 220V ... 280V 111.9024.45

GPS radio clock NIS time, RS485, Uh: DC 18 V ... 60V ... 72V 111.9024.46

GPS radio clock NIS time, RS232, Uh: AC 85 V ... 110V ... 264 V / DC 88 V ... 220V ... 280V 111.9024.47

GPS radio clock NIS time, RS232, Uh: DC 18 V ... 60V ... 72V 111.9024.48

Modems:

Develo MicroLink 56Ki analogue modem, table top device incl. 230 V AC power supply adapter 111.9030.02

Develo MicroLink 56Ki analogue modem, DIN-rail device incl. 230 V AC power supply adapter 111.9030.03

Industrial analogue modem that can be used as dial-up modem or dedicated line; (Uh: AC 20..260 V/DC 14 V..280 V) with DIN-rail adapter; can be used with the PC and the device!

111.9030.17

Insys industrial analogue modem that can be as a dedicated line; supply voltage DC: 10…60 V, can be used with the PC and the device!

111.9030.20

ISDN modem for DIN-rail mount; Uh: DC 10 … 60 V 111.9030.27

ISDN modem as table top device; incl. 230 V AC mains adapter 111.9030.37

GPRS modem (Insys) for DIN-rail mount; incl. magnet foot antenna and parameterisation software; Uh: DC 10 ..60 V

111.9030.29

Power supply:

Phoenix power supply adaptor for DIN-hat rail mounting: In: AC 120 V...230 V, DC 90 … 250 V, Out: DC 24 V

111.9005.02

Power supply for DIN-rail mounting: In: AC 80 V...250 V; Out: DC 24 V 111.9030.31

Power supply for DIN-rail mounting: In: DC 18 V...60 V...72 V; Out: DC 24 V 111.9030.32

Power supply for ELAN router or booster: In: AC 100 to 240 V, Out: 24 V/1.3 A 111.9030.36

UPS HighCAP2403-1AC, In: 230 V AC Out: 24 V DC, max. 3 A, 1000 Joule (1 kW), DIN-Rail 111.9030.38

Additional input and output module:

Analogue input module (2 inputs) 320.0004.00

Analogue output module (2 outputs) 320.0003

Input module for tap-potentiometer total resistance 180 ...2 kΩ, min. 5 Ω/tap 320.0002.01

Input module for tap-potentiometer total resistance 2 ...20 kΩ, min. 50 Ω/tap 320.0002.03

Input module for PT100 in conformity with DIN 43760 in three-wire circuit 320.0005.01

Operating instructions:

Additional operating instructions for REG-DA (please specify the language) GX

Add-ons for REG-DA CODE

Transformer monitoring module - TMM 0 Consists of:

– Firmware update

– User guide and Windows programming user interface for WinREG

– Analogue module with two inputs for the temperature transducer

– Input for PT100 in a three-wire circuit in conformity with DIN 43760 Additional analogue input, output or PT100 module. See Accessories

TMM

A1 A2

Software for REG-DA CODE

REGView as CD-ROM WinREG add-on functions Collector and RegView to archive and view data recorded with REG-D(A) and PAN-D.

REGView

REGSim as CD-ROM Simulates the parallel operation of transformers

REGSim

General Add-ons CODE

Profibus DP module incl. RS485 interface and connection cable 0 Mountable on DIN-rail (120 x 75 x 27) mm with ext. 24 V power supply adapter

Profi-DP

TCP/IP adapter 0 10 Mbit mountable on DIN rail with power supply adapter for Uh AC 230 V 0 100 Mbit

REG-COM A01 A90

COM3 converter COM3 to Modbus converter to connect external devices with Modbus interface to the transformer monitoring module. For example, to analyse the gas-in-oil ratio online, directly measure the winding temperature, etc. 0 Auxiliary voltage – AC 85…264 V, DC 88 … 280 V, DC 18 … 72 V

– DC 18 … 72 V

COM3-MOD

H1 H2

IRIG-DCF77 converter 0 AC 85 V … 110 V …264 V / DC 88 V … 220 V … 280 V 0 DC 18 V … 60 V … 72 V 0 as wall-mounting housing 20 HP

IRIG-DCF H1 H2 B2

A. Eberle GmbH & Co. KG

Franken Str. 160 D-90461 Nuremberg

Tel.: +49-(0)911-62 81 08-0 Fax: +49-(0)911-62 81 08-96 E-mail: [email protected]

http://www.a-eberle.de

Provided by:

_______________________________

Copyright 2016 by A. Eberle GmbH & Co. KG

Subject to change without prior notice.

http://www.a-eberle.de/

relay for oltc control & transformer monitoring for oltc control & transformer ... 1....

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